Existence of weak solutions for fractional $p(x, .)$-Laplacian Dirichlet problems with nonhomogeneous boundary conditions (2406.18338v1)

Abstract: In this paper, we consider the existence of solutions of the following nonhomogeneous fractional $p(x,.)$-Laplacian Dirichlet problem: \begin{equation*} \left{\begin{aligned} \Big(-\Delta_{p(x,.)}\Big)^s u (x)&=f(x, u) &\text { in }& \Omega, u &=g &\text { in }& \mathbb{R}^N \setminus\Omega, \end{aligned}\right. \end{equation*} where $\Omega\subset\mathbb{R}^N$ is a smooth bounded domain, $\Big(-\Delta_{p(x,.)}\Big)^s$ is the fractional $p(x,.)$-Laplacian, $f$ is a Carath\'eodory function with suitable growth condition and $g$ is a given boundary data. The proof of our main existence results relies on the study of the fractional $p(x, \cdot)$-Poisson equation with a nonhomogeneous Dirichlet boundary condition and the theory of fractional Sobolev spaces with variable exponents, together with Schauder's fixed point theorem.